| # | Document title | Authors | Year | Source | Cited by |
| 1 | Beneficial utilization of recycled asphaltic concrete aggregate in high calcium fly ash geopolymer concrete | Wongkvanklom A., Posi P., Kampala A., Kaewngao T., Chindaprasirt P., Chindaprasirt P. | 2021 | Case Studies in Construction Materials,
15, e00615 | 49 |
| 2 | Thermal insulating and fire resistance performances of geopolymer mortar containing auto glass waste as fine aggregate | Chindaprasirt P., Chindaprasirt P., Lao-un J., Zaetang Y., Wongkvanklom A., Phoo-ngernkham T., Wongsa A., Sata V. | 2022 | Journal of Building Engineering,
60, 105178 | 44 |
| 3 | Structural Lightweight Concrete Containing Recycled Lightweight Concrete Aggregate | Wongkvanklom A., Posi P., Khotsopha B., Ketmala C., Pluemsud N., Lertnimoolchai S., Chindaprasirt P. | 2018 | KSCE Journal of Civil Engineering,
22(8), pp. 3077-3084 | 41 |
| 4 | Comparative study of fire-resistant behaviors of high-calcium fly ash geopolymer mortar containing zeolite and mullite | Wongsa A., Wongkvanklom A., Tanangteerapong D., Chindaprasirt P., Chindaprasirt P. | 2020 | Journal of Sustainable Cement-Based Materials,
9(5), pp. 307-321 | 39 |
| 5 | Lightweight geopolymer concrete containing recycled plastic beads | Wongkvanklom A., Posi P., Homwuttiwong S., Sata V., Wongsa A., Tanangteerapong D., Chindaprasirt P. | 2019 | Key Engineering Materials,
801 KEM, pp. 377-384 | 22 |
| 6 | Setting time, compressive strength and sulfuric acid resistance of a high calcium fly ash geopolymer containing borax | Wongkvanklom A., Sata V., Sanjayan J., Chindaprasirt P., Chindaprasirt P. | 2018 | Engineering and Applied Science Research,
45(2), pp. 89-94 | 20 |
| 7 | Strength, thermal conductivity and sound absorption of cellular lightweight high calcium fly ash geopolymer concrete | Wongkvanklom A., Posi P., Kasemsiri P., Sata V., Cao T., Chindaprasirt P. | 2021 | Engineering and Applied Science Research,
48(4), pp. 487-496 | 18 |
| 8 | Fire-resistant and Thermal Insulation Improvements of Cement Mortar with Auto Glass Waste Sand | Zaetang Y., Lao-un J., Wongkvanklom A., Wongsa A., Sata V., Chindaprasirt P., Chindaprasirt P. | 2023 | KSCE Journal of Civil Engineering | 6 |
| 9 | Factors affecting the workability and strength of alkali-activated high calcium fly ash concrete | Chaimoon K., Pantura S., Homwuttiwong S., Wongkvanklom A., Chindaprasirt P. | 2012 | Environmental Engineering and Management Journal,
11(8), pp. 1425-1432 | 2 |
| 10 | Utilization of Plastic Waste in Fly Ash Geopolymer Concrete Containing Recycled Concrete Aggregate for Pavements | Wongkvanklom A., Posi P., Zaetang Y., Wongsa A., Pangdaeng S., Chindaprasirt P., Chindaprasirt P. | 2024 | Arabian Journal for Science and Engineering | 1 |
| 11 | Pre-Crack Behaviours of Cement Paste Containing Bacillus pseudofirmus ATCC 700159 | Lomsri R., Wongkvanklom A., Chindaprasirt P., Wongsa A., Tanangteerapong D. | 2019 | Key Engineering Materials,
801, pp. 371-376 | 0 |